Support Apparatus for Display Devices and Other Objects

ABSTRACT

A support apparatus includes an arm assembly attached to a support assembly such that the arm assembly is positionable adjacent to an article of furniture such as a desk or work surface. A mounting device is attached to the arm assembly that is sized and configured to retain a display device. A vertically adjustable attachment mechanism attaches a first end of the counterbalance mechanism to the arm assembly or support assembly. The vertically adjustable attachment mechanism is sized and configured such that a vertical position of the first end of the counterbalance mechanism is adjustable via movement of at least one component of the vertically adjustable attachment mechanism.

CROSS-REFERENCE TO RELATED APPLICATION

The present application claims priority to U.S. Provisional PatentApplication No. 61/494,074, which was filed on Jun. 7, 2011.

FIELD OF INVENTION

The present invention relates to support arms such as monitor arms andother moveable arm assemblies configured to hold objects such asmonitors or liquid crystal displays.

BACKGROUND OF THE INVENTION

Support arms such as monitor supports or copy holders often include oneor more arms that extend from a support post. The arm is configured tohold an object, such as a monitor. The support post is typically clampedto a support surface, such as a desk, table or partition wall. Examplesof support arms and similar support apparatuses are disclosed in U.S.Pat. Nos. 7,652,876, 7,392,969, 7,389,965, 7,369,401, 7,252,277,7,246,780, 7,182,301, 7,048,242, 7,014,157, 6,905,101, 6,863,252,6,739,096, 6,702,604, 6,679,096, 6,554,238, 6,554,235, 6,505,988,6,499,704, 6,343,006, 5,992,809, 5,772,174, 5,687,939, 5,553,820,D518,063, 4,844,387, and D537,323, U.S. Patent Application PublicationNos. 2011/0303800, 2010/0044541, 2005/0284997, 200510133678,2005/0284991, 2006/0266909, 2008/0116622 and 2008/0237439, WorldIntellectual Property Publication Nos. WO 2009/151760, WO 2008/091998,WO 2008/113860, WO 2008/012368, WO 2008/022873, WO 2007/137905 and WO2007/118862 and United Kingdom Patent Application No. GB 2,440,606.

Our U.S. patent application Ser. No. 12/372,110 and U.S. ProvisionalPatent Application Ser. No. 61/353,714 discloses examples of supportapparatuses. The entirety of U.S. Provisional Patent Application Ser.No. 61/353,714 is incorporated by reference herein. The entirety of U.S.patent application Ser. No. 12/372,110 is incorporated herein byreference.

Various support arms require springs, such as gas springs or coiledsprings, to help support an object at a particular location and permitpositioning adjustment of the support arm. For instance, WorldIntellectual Property Publication No. WO 2007/118862 discloses a supportarm that requires a gas spring and a cable to support an object held bythe arm in a particular position. The support arm also has a sleeve thatmay be slid over a cylindrical support post for attachment to thesupport post. The use of cables often detracts from the aesthetic effectof the support arm. The use of exposed springs or gas springs can alsodetract from the aesthetic effect of a support arm. Moreover, the use ofsprings and cables to support an object often increase the cost offabricating such support apparatuses.

Further, gas springs used in support arms are often not adjustable by auser. The initial setting of the gas spring made by an installer ormanufacturer is often, if not always, utilized for the setting tocontrol the ability of the monitor arm to adjust to new positions or toretain objects such as monitors of certain weights. As a result, a useris usually unable to adjust the way in which a monitor arm may be movedto adjust an amount of force needed to change a position of the monitorarm or object held by the monitor arm to meet a user's particularpreference.

A support apparatus is needed that can permit a user to easily adjustthe position of one or more objects held by the support apparatus.Preferably, the support apparatus permits a user to adjust the forcerequired to adjust the position of the monitor arm or other supportapparatus so that the device may be adjusted to accommodate a user'sparticular preference in a way that is relatively easy for the user.

SUMMARY OF THE INVENTION

A support apparatus includes a counterbalance mechanism. One end of thecounterbalance mechanism may be attached to a portion of an arm assemblyor a support supporting the arm assembly so that the end of thecounterbalance mechanism may be vertically adjustable while attached tothat element of the support apparatus. Preferably, the end of thecounterbalance mechanism is vertically adjustably attached to thesupport or arm assembly. The arm assembly of the support apparatus maybe configured to hold and maintain the position of an object such as adisplay device. A display device may be a monitor, television, liquidcrystal display or other device configured to allow a user to view animage.

Some embodiments of the support apparatus may be configured to include agas spring. For instance, a support apparatus may include an armassembly attached to a support assembly. A mounting device may beattached to the arm assembly that is sized to retain at least onedisplay device such as a monitor, television or display unit. A gasspring may extend between opposite ends of the arm assembly. The gasspring may have a first end and a second end opposite the first end ofthe gas spring. A vertically adjustable attachment mechanism maydirectly attach the first end of the gas spring to one of the armassembly and the support assembly. The vertically adjustable attachmentmechanism is sized and shaped so that a vertical position of the firstend of the gas spring is adjustable via movement of at least onecomponent of the vertically adjustable attachment mechanism.

Other embodiments of the support apparatus may be configured so that acounterbalance mechanism is attached to at least one of a supportassembly and a first end of an arm assembly so that an end of thecounterbalance mechanism is vertically adjustable from a first positionto at least one second position that is higher or lower than the firstposition. The vertical adjustment of the end of the counterbalancemechanism adjusts an amount of weight of a display device that ismaintainably supportable by the arm assembly. A vertically adjustableattachment mechanism moveably attaches the end of the counterbalancemechanism to one of the arm assembly and the support assembly tomoveably attach the end of the counterbalance mechanism so that the endof the counterbalance mechanism is vertically adjustable via movement ofat least one component of the vertically adjustable attachmentmechanism.

Some embodiments of the support apparatus may include a mechanical tool.The mechanical tool may be releasably retained by the mounting device.The mechanical tool may be usable to adjust a vertical position of afirst end of the gas spring or an end of a counterbalance mechanism viarotation of a rotatable member component of the vertically adjustableattachment mechanism caused by the mechanical tool engaging therotatable member wile rotating to rotate the rotatable member. A usermay use the tool to thereby adjust the position of the end of the gasspring or other counterbalance mechanism.

Some embodiments of the support apparatus may include a mountingmechanism. The mounting mechanism may be attached to the supportassembly. The mounting mechanism may include a clamp for attaching to aportion of a work surface or a wall of paneling for example so that thesupport apparatus can be attached to that structure for positioning thearm assembly adjacent a work surface or other article of furniture.

The vertically adjustable attachment mechanism may include a number ofdifferent components. For instance, the vertically adjustable attachmentmechanism may include a receiving body that is attached to the armassembly. Such an attachment may be a moveable attachment.Alternatively, such an attachment may be an affixation that preventsmovement of the receiving body independent of the arm assembly. Thevertically adjustable attachment mechanism may also include a rotatablemember that is attached to the receiving body and is rotatable so thatmovement of the rotatable member raises a position of an end of the gasspring or other counterbalance mechanism when rotated in one directionand lowers the position of the end of the gas spring or othercounterbalance mechanism when rotated in an opposite direction. The endof the gas spring or counterbalance mechanism may be directly attachedto the rotatable member or may be attached to a nut or other moveablebody that is moveably attached to the rotatable member. For instance,the nut or other moveable body may be attached to the rotatable memberand the end of the gas spring or other counterbalance mechanism may bepositioned on the nut or other moveable body so that vertical movementof the nut or other moveable body causes the end of the gas spring orother counterbalance mechanism to vertically move as well. In someembodiments the rotatable member is a bolt or screw and the nut or othermoveable member has threads that mate with the threads of the rotatablemember so that rotation of the rotatable member causes the nut or othermoveable member to move along the threads of the rotatable member.

Other details, objects, and advantages of the invention will becomeapparent as the following description of certain present preferredembodiments thereof and certain present preferred methods of practicingthe same proceeds.

BRIEF DESCRIPTION OF THE DRAWINGS

Present preferred embodiments of a support apparatus are shown in theaccompanying drawings and certain present preferred methods ofpracticing the same are also illustrated therein. It should beunderstood that like reference numbers used in the drawings may identifylike components.

FIG. 1 is a perspective view of a first present preferred embodiment ofa support apparatus showing a mounting device being attached to an endof the arm assembly. The mounting device includes a groove or othermechanism for releasably retaining an Allen wrench or other mechanicaltool that may be used to adjust the position of the gas spring or theforce of the gas spring.

FIG. 2 is a side view of the first present preferred embodiment of thesupport apparatus with the mounting device cut away.

FIG. 3 is an exploded view of the first present preferred embodiment ofthe support apparatus.

FIG. 4 is a side view of a first present preferred arm assembly attachedto a gas spring that may be utilized in embodiments of the supportapparatus.

FIG. 5 is a perspective view of the first present preferred arm assemblyattached to a gas spring that may be utilized in embodiments of thesupport apparatus.

FIG. 6 is a rear view of the first present preferred arm assemblyattached to a gas spring that may be utilized in embodiments of thesupport apparatus.

FIG. 7 is an exploded view of the first present preferred arm assemblyattached to a gas spring that may be utilized in embodiments of thesupport apparatus.

FIG. 8 is a side view of a second present preferred embodiment of thesupport apparatus.

FIG. 9 is an exploded view of an embodiment of a vertically adjustableattachment mechanism and counter balance mechanism attached thereto thatmay be utilized in embodiments of the support apparatus.

DETAILED DESCRIPTION OF PRESENT PREFERRED EMBODIMENTS

Referring to FIGS. 1-9, a support apparatus 1 may be configured to serveas a monitor arm or a support device used to moveably supporttelevisions, monitors, liquid crystal displays, or other display devicesused in computers, computer devices or other electronic equipment. Thesupport apparatus 1 may include a mounting mechanism 3, such as a clampor weighted support that is sized and configured to hold or retain thesupport apparatus on an article of furniture, such as a desk ortabletop. The mounting mechanism 3 may alternatively be a bracket thatpermits fasteners to be extended through a work surface, such as a desktop or tabletop, to a post or other support to attach the supportapparatus to the article of furniture.

The support apparatus may include a support that has a post 5 that isattached to an angled member 7 that extends from the post 5. The supportmay be rotatably attached to the mounting mechanism 3 at a bottom end 4of the support. For instance, as may be appreciated from FIG. 3, thebottom end 4 of the post 5 may be rotatably attached to the mountingmechanism 3 by a bolt, axle, or other fastener that extends into a holeformed in the bottom end 4 of the post to rotatably move about thatbolt, axle, or other fastener.

The angled member 7 may be affixed to an upper end of the post or otherportion of the post 5 or may be an integral part of post 5. An end 6 ofthe member 7 may be rotatably attached to a first end 21 of an armassembly 9. For instance, a bolt or axle may be positioned in an end ofthe angled arm assembly 7 and extend into a hole formed in a first end21 of the arm assembly 9 that receives the axle to rotatably connect thearm assembly to the member 7. The axle may define the axis of rotationfor the arm assembly 9.

The arm assembly 9 may also include a second end 23 that is opposite thefirst end 21. The second end 23 may be configured for attachment to amounting device 13 that is configured to attach a display device, suchas a monitor, to the arm assembly. Preferably, the mounting device 11 isthe same or similar to the mounting plate or other mounting device fordisplay devices disclosed in our U.S. patent application Ser. No.12/372,110.

The mounting device 11 may include a groove or other aperture that issized and configured to mate with a portion of an Allen wrench 13 orother mechanical tool. The Allen wrench 13 may be releasably retained bythe groove or other aperture or structure defined in a portion of themounting device 13. Preferably, the mounting device 11 is configured sothat the Allen wrench is releasably retained on a rear side of themounting device so that the Allen wrench is generally hidden from viewso it does not unnecessarily detract from the aesthetic effect of thesupport apparatus while still providing functionality that may be usefulto a user.

A cable management bracket 8 may be attached to the post to help retaincords that may extend from a device held by the support apparatus. Forexample, the cable management bracket 8 may retain a power cord andvideo data communication cord that runs from a computer to a monitor ordisplay held by the mounting device 11 so that these wires or cables runnear the post 5, angle arm 7, and arm assembly 9 to the display deviceheld by the mounting device 11.

The arm assembly 9 may include one or more interconnected arm members.The arm assembly 9 may also include a counterbalance mechanism 31, whichmay include a gas spring 38. Gas spring 38 may also be referred to as agas strut or gas damper. The gas spring 38 is attached between the firstend 21 of the arm assembly 9 and the second end 23 of the arm assembly.The gas spring 38 may be covered or enclosed by a shroud 39 that isconfigured to hide the gas spring 38 or substantially hide the gasspring 38 from view to improve the aesthetic effect of the supportapparatus 1. The shroud may also cover any pivotal connections betweenends of the gas spring or other elements of the arm assembly 9 to helpprevent a user from accidentally pinching a finger or otherwise becominginjured when adjusting a position of the arm assembly 9.

The gas spring 38 may be rotatably attached to the first end 21 of thearm assembly 9. The rotatable attachment may permit the second end 23 ofthe arm assembly to be vertically adjusted via rotational movement ofthe arm assembly 9 about the rotatable attachment or pivot attachment ofthe gas spring 38 to the first end 21 of the arm assembly 9. Thevertical adjustment acts in combination with rotational adjustabilityprovided by the rotational attachments at the bottom 4 of the post 5 andthe upper end 6 of the member 7. Of course, a monitor may have itsposition further adjusted via pivotal attachment of the mounting device13 to the second end 23 of the arm assembly and rotational or verticaladjustment provided via components of the mounting device 13.

It should be understood that the arm assembly 9 may include one or morearm members or arm linkages connected together. For such embodiments,the gas spring 38 may be attached between the opposite ends of theentire arm assembly. For instance, the gas spring 38 could be attachedbetween ends of one arm of the entire arm assembly or may be positionedbetween two or more arm members of the arm assembly. One end of the gasspring is preferably attached to an end of one of the arm members of thearm assembly or a distal end of the arm assembly. That one end ispreferably vertically adjustable via the attachment mechanism thatattaches that end of the gas spring to the arm assembly. Examples ofsuch attachment mechanisms are discussed more fully below.

The counterbalance mechanism 31 may also include a housing 39 that has achannel sized to receive the gas spring 38 to cover the gas spring 38.The housing may have ends that are attached to the ends of the gasspring and also the ends 21 and 23 of the arm assembly 9. The housing 39is preferably composed of steel and may define a channel sized andconfigured to cover the gas piston or to enclose a portion of the gasspring 38. The housing 39 may be sized and configured so that it maypermit the shroud 37 to be adhered to the housing 39 to cover thehousing and pinch points of the arm assembly 9 without requiringmechanical fasteners and without requiring the shroud 37 to be directlyattached to the gas spring 38.

A middle chamber of the gas spring 38 may retain gas or other fluid andbe configured to receive a portion of a rod that extends out of and intothe chamber. It should be appreciated that in some contemplatedembodiments, the gas spring may utilize a liquid as the fluid instead ofa gas. The gas or other fluid within the chamber may define an amount offorce needed to extend or retract the rod from the chamber. The rodencircled by the chamber that is extendable from the chamber may have afirst end 38 a. A second end 38 b of the gas spring 38 may be positionedopposite this first end 38 a. The first end 38 a may be rotatably andalso vertically moveably attached to the first end of the arm assembly21. The second end 38 b may be rotatably attached to the second end 23of the arm assembly 9 or may be immovably affixed to the second end 23of the arm assembly 9.

The gas or other fluid in the chamber of the piston may provide a forceor pressure that must be overcome to extend or retract the end 38 a ofthe rod into or out of the chamber. This force permits the gas spring 38to help maintain the position of an object, such as a display device,that may be attached to the second end 23 of the arm assembly 9 becausethe weight of the object may not be sufficient to overcome the forceneeded to move the end 38 a of the gas spring. A user must apply theforce necessary to overcome the force of the gas or other fluid in thechamber of the gas spring 38 to move the end 38 a, which permits theuser to readjust the position of the object as desired. The gas or otherfluid within the chamber, however, also permits the gas spring to helpmaintain the user selected position after the user stops adjusting theposition of the object held by the arm assembly 9 by preventing the end38 a to further extend or retract once the user's exerted force has beenstopped.

The first end 21 of the arm assembly 9 may include a verticallyadjustable attachment mechanism 40 that connects the first end 38 a ofthe gas spring to the first end 21 of the arm assembly so that avertical position of the first end 38 a of the gas spring can bevertically adjusted to one of a number of different positions. Eachposition may change the mechanical arrangement of the gas spring 38relative to the arm assembly so that the amount of force that a usermust provide to extend or retract the moveable rod of the gas springfrom the piston chamber is adjustable. Further, such a verticaladjustment to the position of the first end 38 a of the gas spring 38may change the amount of weight the arm assembly 9 may support formaintaining a display device in a particular user selected position.

The adjustment of the amount of force needed to move or retract the gasspring 38 affects the weight of an object the arm assembly 9 can hold ina particular position or orientation. For instance, in one verticalposition for first end 38 a, the arm assembly 9 may be able to maintainthe position of a monitor weighing fifteen pounds in any of a number ofpositions a user may move the arm assembly 9 via pivoting upwardmovements or rotational movements about the connection the first end 38a of the gas spring 38 has with the first end 21 of the arm assembly 9.In contrast, the vertical position of the first end 38 a may be changedso that the arm assembly is no longer able to maintain such a positionfor a fifteen pound object, but instead can only maintain such aposition for an object of up to ten pounds. Of course, the arm assemblymay be configured to permit a number of other vertical adjustments tothe position of the first end 38 a of the gas spring to affect theholding of objects that are under ten pounds or over fifteen pounds aswell. For instance, the first end 38 a may be vertically adjustablyattached to the first end 21 of the arm assembly so that adjustment ofthe first end 38 a of the gas spring may change the amount of force thatis supportably by the second end 23 of the arm assembly in the range oftwenty pounds to five pounds or twenty pounds to ten pounds.

The vertically adjustable attachment mechanism 40 that may be utilizedto provide a vertically adjustable attachment of the first end 38 a ofthe gas spring 38 of the counterbalance mechanism 31 to the first end 21of the arm assembly may include a receiving body 41, or keeper, thatretains a fastener such as a bolt, screw or other type of rotatablemember 42 that extends vertically through the first end 38 a of the gasspring 38 to connect the receiving body 41 to the first end 38 a. Insome embodiments of the vertically adjustable attachment mechanism 40,the receiving body 41 may be affixed to the first end 21 so that it isnot moveable. A nut or moveable body 42 a may be positioned on therotatable member 42 and may be moveable when the rotatable member isrotated such that the moveable body 42 a may move vertically when therotatable member is rotated. For instance, the moveable body 42 a mayhave threads that mate with threads on the rotatable member and may movevertically along a path defined by the threads of the rotatable memberwhen the rotatable member is rotated. The first end 38 a of the gasspring 38 may be attached to the moveable body, rest upon the moveablebody or may engage the moveable body so that when the moveable bodymoves vertically, the first end 38 a also moves vertically.

The moveable body 42 a may include a projection that fits within agroove formed in the receiving body. The groove of the receiving bodymay mate with the projection of the moveable body 42 a so that themoveable body is prevented from rotation as a result of the position ofthe projection within the groove. The moveable body 42 a may be furtherprevented from rotation when the rotatable member 42 is rotated by adirect attachment to the first end 38 a of the gas spring 38. Thecombination of the projection of the mateable body 42 a within thegroove of the receiving body 41 and the attachment of the first end 38 aof the gas spring 38 to the moveable body 42 a may help prevent themoveable body from becoming damaged or experiencing excessive torquewhen the rotatable member is rotated to adjust the position of themoveable body 42 a so that the life of the moveable body 42 a may beextended.

At least one side of the first end 21 may include indicia 43, 45, and 47that identify different positions for the rotatable member 42, nut ormoveable body 42 a attached to the rotatable member that may move uponrotation of the rotatable member 42 and may also identify the differentforce settings those positions represent. For instance, indicia 43 maybe the written number twenty to identify the fact that when the moveablebody 42 a is in that position, the gas spring 38 permits the arm tosuspend and hold a device that weighs up to twenty pounds. Indicia 45and 47 may also include indicia indicating the amount of weight that issupportable by the arm assembly when the first end 38 a of the gasspring 38 is vertically adjusted via movement of the rotatable member 42and moveable body 42 a. For example, indicia 45 may indicate that amiddle position of the moveable body 42 a positions the first end 38 aof the gas spring 38 to help maintain a position of a device via the armassembly 9 and mounting device 11 that weighs up to sixteen pounds andindicia 47 may identify an upper position of the receiving body thatpositions the first end 38 a of the gas spring 38 to maintain theposition of a display device weighing up to ten pounds. It should beunderstood that any number of positions for the moveable body 42 a andfirst end 38 a of the gas spring 38 may be defined via the rotatablemember of the attachment mechanism 40.

The receiving body 41 may be affixed to the first end 21 of the armassembly 9 so that it does not move relative to the first end 21. Thereceiving body 41 may be attached to the first end 38 a of the gasspring 38 via a fastening mechanism that includes the rotatable member42 and moveable body 42 a, which may be, for instance, a nut. Therotatable member 42 may be positioned and configured so that an Allenwrench or other mechanical tool such as a screwdriver may be positionedunder the rotatable member 42 to engage the rotatable member 42 androtate the rotatable member 42 in different directions. The rotation ofthe rotatable member 42 may cause the rotatable member to rotate betweenthe receiving body 41 and the first end 21 of the arm assembly 9 tovertically move the moveable body 42 a on the rotatable member 42. Forinstance, the moveable body 42 a may move along threads formed on therotatable member 42 to different positions along the rotatable member42.

The rotation of the rotatable member 42 in different directions mayraise or lower the position of the moveable body 42 a and the first end38 a of the gas spring 38. For instance, an Allen wrench 13 may be usedto rotate the rotatable member 42 in a clockwise direction to cause themoveable body 42 a to move downward to lower the position of the firstend 38 a that is supported on the moveable body 42 a. Conversely, anAllen wrench 13 may be used to rotate the rotatable member in acounterclockwise direction to cause the moveable body 42 a to move to ahigher position. It should be appreciated that movement of the rotatablemember 42 within the receiving body 41 or first end 21 of the armassembly may define the path of vertical movement of the moveable body42 a and first end 38 a of the gas spring 38.

The rotatable member 42 may be positioned so that its length extendsperfectly vertically or substantially vertically. For instance, therotatable member 42 may be positioned so its length extendssubstantially vertically as shown in the embodiment of the supportapparatus illustrated in FIGS. 8-9. Such a length may extend at an anglerelative to the length extending perfectly vertically such as a tendegree angle, fifteen degree angle or forty degree angle relative to alength extending perfectly vertical. Such a configuration may result inan end 38 a of the gas spring being attached at a position that is loweras compared to embodiments where the rotatable member is perfectlyvertical. The lower attachment position may help reduce the size andstrength needed from the gas spring as the amount of upward lift orcounterbalance force being effectively provided by the gas spring tomaintain a position of an arm assembly holding a monitor or otherdisplay device may be effectively increased as a result of the lowerattachment point of end 38 a of the gas spring for such embodiments. Itshould be understood that the moveable body 42 a may move along therotatable member vertically or substantially vertically by travelingalong the length or a portion of the length of the rotatable member 42that extends at an angle relative to being perfectly vertical.

In other embodiments, the receiving body 41 may be configured so that itmoves relative to the first end 21 of the arm assembly. Movement of therotatable member 42 may move the receiving body 41 relative to the firstend 21 of the arm assembly or other portion of the arm assembly toadjust the vertical position of the first end 38 a of the gas spring 38.For such embodiments, the first end 38 a of the gas spring 38 may beattached directly to the receiving body 41.

In yet other embodiments, the first end 38 a of the gas spring 38 may beattached directly to the rotatable member such that rotation of therotatable member to vertically adjust a position of the rotatable member42 moves the gas spring 38 as well.

Of course, the vertical adjustment mechanism used to attach the firstend of the gas spring 38 to the arm assembly may also be used in otheralternative arrangements, such as arm assemblies utilizing multiplelinkages that have the vertical attachment mechanism positioned in amiddle position of the arm assembly or positioned between ends of aparticular arm linkage of the arm assembly. For example, it iscontemplated that the vertical adjustment mechanism 40 may be attachedto a middle portion of the arm assembly, and not an end of the armassembly. For instance, an arm assembly may include two or more linkagesthat are interconnected and the gas spring may extend from a middleportion adjacent to a pivotal interconnection of the two linkages to aposition adjacent to a terminal end of the arm assembly.

In some embodiments of the arm assembly, it is contemplated that thefirst end 38 a of the gas spring 38 may be attached to an upper end ofthe support, such as an upper end of angled member 7, instead of beingattached to an end of the arm assembly. Such embodiments may alsoutilize an attachment mechanism that permits vertical adjustment of thefirst end 38 a of the gas spring 38. An example of such an attachmentmechanism may be an embodiment of the attachment mechanism 40 discussedabove that is configured for attachment to the angled member 7 orsupport post 5 instead of the first end 21 of the arm assembly.

While certain present preferred embodiments of the support apparatus,and methods of making and using the same have been shown and describedabove, it is to be distinctly understood that the invention is notlimited thereto but may be otherwise variously embodied and practiced asmay be appreciated by those of at least ordinary skill in the art. Theinvention may also be otherwise variously embodied and practiced withinthe scope of the following claims.

1. A support apparatus comprising: an arm assembly, the arm assemblyhaving a first end and a second end; a support assembly, the armassembly being moveably attached to the support assembly; a gas springor counterbalance mechanism extending between the first end of the armassembly and the second end of the arm assembly, the gas spring orcounterbalance mechanism having a first end and a second end oppositethe first end, the gas spring or counterbalance mechanism attached tothe arm assembly such that the arm assembly is maintained in a pluralityof different positions after the arm assembly is moved relative to thesupport assembly to any one of the positions.
 2. The support apparatusof claim 1 further comprising: a mounting device attached to the armassembly, the mounting device sized to retain a display device; avertically adjustable attachment mechanism directly attaching the firstend of the gas spring to one of: the arm assembly and the supportassembly, the vertically adjustable attachment mechanism sized andshaped such that a vertical position of the first end of the gas springis adjustable via movement of at least one component of the verticallyadjustable attachment mechanism; and a mechanical tool; and wherein themounting device releasably retains the mechanical tool and wherein themechanical tool is usable to adjust a vertical position of the first endof the gas spring via rotation of a rotatable member component of thevertically adjustable attachment mechanism caused by the mechanical toolengaging the rotatable member while rotating to rotate the rotatablemember, the rotatable member component being the at least one componentof the vertically adjustable attachment mechanism.
 3. The supportapparatus of claim 2 wherein the arm assembly is comprised of a firstarm member positioned between the first end and the second end of thearm assembly, the vertically adjustable attachment mechanism beingattached to an end of the first arm member for directly attaching thefirst end of the gas spring to the arm assembly and wherein the mountingdevice is attached to the second end of the arm assembly.
 4. The supportapparatus of claim 2 further comprising a mounting mechanism attached tothe support assembly, the mounting mechanism being comprised of a clampand wherein the mounting device comprises a mounting plate sized andconfigured for attachment to the display device.
 5. The supportapparatus of claim 2 wherein the vertically adjustable attachmentmechanism is comprised of a receiving body attached to the arm assembly.6. The support apparatus of claim 5 wherein the receiving body ismoveably attached to the arm assembly.
 7. The support apparatus of claim5 wherein the receiving body is affixed to the first end of the armassembly and wherein the vertically adjustable attachment mechanismfurther comprises a rotatable member that is attached to the receivingbody, the rotatable member being rotatable in a first direction and inan opposite second direction, rotation of the rotatable member in thefirst direction raising a position of the first end of the gas spring,rotation of the rotatable member in the second direction lowering aposition of the first end of the gas spring, the at least one componentof the vertically adjustable attachment mechanism being comprised of therotatable member.
 8. The support apparatus of claim 7 wherein the firstend of the gas spring is directly attached to the rotatable member. 9.The support apparatus of claim 7 wherein the vertically adjustableattachment mechanism further comprises a nut or moveable body attachedto or positioned on the first end of the gas spring, the nut or moveablybody also being moveably attached to the rotatable member such thatrotation of the rotatable member causes the nut or moveable body to movealong the rotatable member to change a vertical position of the firstend of the gas spring, the at least one component of the verticallyadjustable attachment mechanism also being comprised of the nut or themoveable body.
 10. The support apparatus of claim 9 wherein the firstend of the gas spring has a hole that is sized to receive the rotatablemember and the first end of the gas spring is positioned on the nut ormoveable body such that vertical movement of the nut or moveable bodycauses the first end to move vertically.
 11. The support apparatus ofclaim 7 wherein the rotatable member is a bolt or a screw that has alength, the length extending substantially vertically.
 12. The supportapparatus of claim 7 wherein the receiving body is immovably affixed tothe first end of the arm assembly such that the receiving body does notmove independent of the first end of the arm assembly.
 13. (canceled)14. The support apparatus of claim 2 wherein the arm assembly iscomprised of at least one arm member. 15-20. (canceled)